A method of drawing a material into sheet form includes forming a preform comprising at least one material as a large aspect ratio block wherein a first transverse dimension of the preform is much greater than a second transverse dimension substantially perpendicular to the first transverse dimension. A furnace having substantially linearly opposed heating elements one spaced from the other is provided and the heating elements are energized to apply heat to the preform to create a negative thermal gradient from an exterior surface along the first transverse dimension of the preform inward toward a central plane of the preform. The preform is drawn in such a manner that the material substantially maintains its first transverse dimension and deforms across its second transverse dimension.

A flexible optical filter and a method of manufacturing includes providing a porous optical filter; depositing the porous optical filter onto a substrate; coating the porous optical filter with a polymer film thereby transferring the porous optical filter to the polymer film; and removing the polymer film and attached porous optical filter from the substrate thereby creating a flexible optical filter. The porous optical filter includes nano-structures. The nano-structures include any of rods, helices, particles, and zig-zags. The removed polymer film and attached porous optical filter may be flexible. The flexible optical filter includes inorganic materials. The nano-structures may absorb an applied strain to the flexible optical filter. The nano-structures prevent the inorganic materials from being damaged upon undergoing strain. The method may further include integrating any of nano-plasmonics, electrochromic, gasochromic, thermochromic, and non-linear optic materials with the porous optical filter.

Disclosed are an optical member, a display device including the optical member and a method of fabricating the optical member. The display device includes a light source; a wavelength conversion member into which light generated from the light source is incident; and a display panel into which light is incident from the wavelength conversion member. The wavelength conversion member includes a receiving part having a pipe shape; a matrix in the receiving part; and a plurality of wavelength conversion particles disposed in the matrix to convert a wavelength of the light generated from the light source.

To provide a laminated reflective film having excellent discoloration resistance and adhesion between refractive index layers. A laminated reflective film including a substrate and a reflective layer including a high refractive index layer and a low refractive index layer disposed on the substrate, wherein at least one of the high refractive index layer and the low refractive index layer includes a polyvinyl alcohol resin, metal oxide particles, and a first metal ion formed of an alkali metal ion and/or an alkaline earth metal ion, and the content ratio of the first metal ion represented by the following Formula (1): $ content ratio of first metal ion = content of first metal ion content of polyvinyl PROCESS FOR MANUFACTURE OF A THERMOCHROMIC CONTACT LENS MATERIAL 20180229457 · 2018-08-16 · Donnie J. Duis, Nayiby Alvarez-Carrigan, Holly L. Grammer, Ture Kindt-Larsen, Frank F. Molock, Jr., Jaqunda Patton, Kim Sander Pedersen, Eric R. George Disclosed in this specification is a process for manufacturing a thermochromic contact lens. The process includes (1) selecting a photoinitiator that absorbs at a first wavelength and at least one thermochromic dye that displays substantial absorption at the first wavelength when the dye is at a first temperature and exhibits at least an 80% reduction in absorbance at the first wavelength at a second temperature, (2) maintaining the reaction mixture at the second temperature and (3) providing cure light that includes the first wavelength. OPTICAL FILTER COMPRISING A VARIABLE TRANSMITTANCE LAYER 20180224677 · 2018-08-09 · Neil Robin Branda, Zachary Bryce Erno, Jeremy Graham Finden, Duhane Lam, Charles Joseph Gongming Loo, Jonathan Ross Sargent, Matthew Paul Smit, Peter Alexander Von Hahn, Douglas Malcolm Wiggin A optical filter comprising a variable transmittance layer having a first spectrum in a dark state, and a second spectrum in a faded state; and a color balancing layer having a third spectrum; each of the first, second and third spectra comprising a visible portion; the first and third spectra combining to provide a dark state spectrum approximating a dark state target color; and the second and third spectra combining to provide a fades state spectrum approximating a faded state target colour. The optical filter may further comprise a light attenuating layer. The optical filter may further comprise part of a laminated glass. Methods for the manufacture of photoabsorbing contact lenses and photoabsorbing contact lenses produced thereby 12128641 · 2024-10-29 · Johnson & Johnson Vision Care, Inc. · Brian Aitken, Jeffrey D. Caltrider, Leilani K. Sonoda, Robert MacDonald Smith, Donnie J. Duis Provided is a method for manufacturing photoabsorbing contact lenses and photoabsorbing contact lenses produced thereby. The method comprises: (a) providing a mold assembly comprised of a base curve and a front curve, the base curve and the front curve defining and enclosing a cavity therebetween, the cavity containing a reactive mixture, wherein the reactive mixture comprises at least one polymerizable monomer, a photoinitiator which absorbs at an activating wavelength, and a photoabsorbing compound which displays absorption at the activating wavelength; and (b) curing the reactive mixture to form the photoabsorbing contact lens by exposing the reactive mixture to radiation that includes the activating wavelength, wherein the radiation is directed at both the base curve and the front curve of the mold assembly, and wherein the radiation's radiant energy at the base curve is greater than the radiation's radiant energy at the front curve. Optical filters, methods of manufacture, and methods of use 10012776 · 2018-07-03 · Microsoft Technology Licensing, Llc · Adrian Travis An optical filter includes a first film having an upper surface, a lower surface, a first side, and a second side. A second film is included that has an upper surface, a lower surface, a first side, and a second side. A third film is included that has an upper surface, a lower surface, a first side, and a second side. The first side of the first film is connected to the second side of the second film. The first side of the second film is connected to the second side of the third film. The lower surface of the first film is optically adjacent to the upper surface of the second film. The lower surface of the second film is optically adjacent to the upper surface of the third film. Methods of manufacture and use are also described. Method of thermally drawing structured sheets 09994476 · 2018-06-12 · Everix, Inc. · Esmaeil Banaei A method of drawing a material into sheet form includes forming a preform comprising at least one material as a large aspect ratio block wherein a first transverse dimension of the preform is much greater than a second transverse dimension substantially perpendicular to the first transverse dimension. A furnace having substantially linearly opposed heating elements one spaced from the other is provided and the heating elements are energized to apply heat to the preform to create a negative thermal gradient from an exterior surface along the first transverse dimension of the preform inward toward a central plane of the preform. The preform is drawn in such a manner that the material substantially maintains its first transverse dimension and deforms across its second transverse dimension. Near infrared optical interference filters with improved transmission 09989684 · 2018-06-05 · Materion Corporation · Robert Sprague An interference filter includes a layers stack comprising a plurality of layers of at least: layers of amorphous hydrogenated silicon with added nitrogen (a-Si:H,N) and layers of one or more dielectric materials, such as SiO.sub.2, SiO.sub.x, SiO.sub.xN.sub.y, a dielectric material with a higher refractive index in the range 1.9 to 2.7 inclusive, or so forth. The interference filter is designed to have a passband center wavelength in the range 750-1000 nm inclusive. Layers of a dielectric material with a higher refractive index in the range 1.9 to 2.7 inclusive provide a smaller angle shift compared with a similar interference filter using SiO.sub.2 as the low index layers. $